Thermo Scientific™

TLD-200™ Thermoluminescent Dosimetry Material

Catalog number: SNO24435
Thermo Scientific™

TLD-200™ Thermoluminescent Dosimetry Material

Catalog number: SNO24435

Thermo Scientific™ TLD-200 Thermoluminescent Dosimetry Material consists of Calcium Fluoride Dyprosium CaF2:Dy. It is suitable for environmental dosimetry applications.

 
Catalog Number
SNO24435
Unit Size
Each
Description
TLD-200 chip (Area: 6.35 x 6.35 x 0.89 mm)
Price (USD)
Full specifications
Accuracy±30 per batch %
DescriptionTLD-200 chip (Area: 6.35 x 6.35 x 0.89 mm)
Emission SpectraPeaks at 4835 Å
Energy Response∼12.5
MaterialCalcium Fluoride Dysporium CaF2:Dy
Sensitivity30 at 5765å
Product TypeThermoluminescent Dosimetry Material
Measurement Ranges0.1 pGy to 1 Gy
Unit SizeEach
Catalog Number
Unit Size
Each
Description
TLD-200 chip (Area: 3.2 x 3.2 x 0.89 mm)
Price (USD)
Full specifications
Accuracy±30 per batch %
DescriptionTLD-200 chip (Area: 3.2 x 3.2 x 0.89 mm)
Emission SpectraPeaks at 4835 Å
Energy Response∼12.5
MaterialCalcium Fluoride Dysporium CaF2:Dy
Sensitivity30 at 5765å
Product TypeThermoluminescent Dosimetry Material
Measurement Ranges0.1 pGy to 1 Gy
Unit SizeEach
Showing 2 of 2
Catalog NumberSpecificationsUnit SizeDescriptionPrice (USD)
SNO24435Full specifications
EachTLD-200 chip (Area: 6.35 x 6.35 x 0.89 mm)Request A Quote
Accuracy±30 per batch %
DescriptionTLD-200 chip (Area: 6.35 x 6.35 x 0.89 mm)
Emission SpectraPeaks at 4835 Å
Energy Response∼12.5
MaterialCalcium Fluoride Dysporium CaF2:Dy
Sensitivity30 at 5765å
Product TypeThermoluminescent Dosimetry Material
Measurement Ranges0.1 pGy to 1 Gy
Unit SizeEach
SNO28835Full specifications
EachTLD-200 chip (Area: 3.2 x 3.2 x 0.89 mm)Request A Quote
Accuracy±30 per batch %
DescriptionTLD-200 chip (Area: 3.2 x 3.2 x 0.89 mm)
Emission SpectraPeaks at 4835 Å
Energy Response∼12.5
MaterialCalcium Fluoride Dysporium CaF2:Dy
Sensitivity30 at 5765å
Product TypeThermoluminescent Dosimetry Material
Measurement Ranges0.1 pGy to 1 Gy
Unit SizeEach
Showing 2 of 2
Single element dosimeters and assemblies are widely used in many installations and processed using Harshaw TLD Systems. These systems include a range of readers and irradiators with compatible software to implement calibration, radiation evaluation and management, dose algorithms, health physics record keeping, finder database, glow curve analysis and chain of custody monitoring.

Note:

Handling - Vacuum tweezers should always be used. (Avoid mechanical tweezers or fingers). Small scratches, loss of mass or foreign deposits affect light emission).

Annealing - For annealing temperatures up to 400°C, the containers should be made from high temperature stainless steel or oxidized aluminum, preferably thin to assist rapid cooling following annealing. (Do not use non-oxidized aluminum). The use of a dedicated annealing oven reduces the risk of contamination by foreign material. Place the annealing containers on open oven racks with air space all round to avoid inconsistent heat gradients. (Do not stack containers or allow them to touch the oven walls).